Neural structures and mechanisms mediating the detection, localization, and recognition of sounds. Discussion of how acoustic signals are coded by auditory neurons, the impact of these codes on behavorial performance, and the circuitry and cellular mechanisms underlying signal transformations. Topics include temporal coding, neural maps and feature detectors, learning and plasticity, and feedback control. General principles are conveyed by theme discussions of auditory masking, sound localization, musical pitch, speech coding, and cochlear implants, and auditory scene analysis
AbstractSound localization mechanisms are particularly plastic during development, when the monaural...
Neuroimaging studies are important for developing an understanding of the functional organization of...
Objective: To review how the properties of sounds are “coded” in the normal auditory system and to d...
The mammalian brain is able to recognize natural sounds in the presence of acoustic uncertainties su...
The long-term goal of this project is to understand the neural mechanisms that mediate the ability o...
Sound localization mechanisms are particularly plastic during development, when the monaural and bin...
• Explore the brain code: synchronization and sequence of spikes for signal processing & recogni...
What is the nature of the neural code by which the human brain represents spoken language? New resea...
The transformation of acoustic signals into abstract perceptual representations is the essence of th...
A major focus of our Auditory Neuroscience Laboratory is gaining an understanding of the physiology ...
Specific locations within the brain contain neurons which respond, by firing action potentials (spik...
An analytically tractable framework is presented to describe neural processing in the early stages o...
A framework is presented for measuring perceptual differences among auditory scenarios and for produ...
Understanding speech in a background of competing noise is challenging, especially for individuals w...
A biologically-inspired neural coding scheme for the early auditory system is outlined. The cochlea ...
AbstractSound localization mechanisms are particularly plastic during development, when the monaural...
Neuroimaging studies are important for developing an understanding of the functional organization of...
Objective: To review how the properties of sounds are “coded” in the normal auditory system and to d...
The mammalian brain is able to recognize natural sounds in the presence of acoustic uncertainties su...
The long-term goal of this project is to understand the neural mechanisms that mediate the ability o...
Sound localization mechanisms are particularly plastic during development, when the monaural and bin...
• Explore the brain code: synchronization and sequence of spikes for signal processing & recogni...
What is the nature of the neural code by which the human brain represents spoken language? New resea...
The transformation of acoustic signals into abstract perceptual representations is the essence of th...
A major focus of our Auditory Neuroscience Laboratory is gaining an understanding of the physiology ...
Specific locations within the brain contain neurons which respond, by firing action potentials (spik...
An analytically tractable framework is presented to describe neural processing in the early stages o...
A framework is presented for measuring perceptual differences among auditory scenarios and for produ...
Understanding speech in a background of competing noise is challenging, especially for individuals w...
A biologically-inspired neural coding scheme for the early auditory system is outlined. The cochlea ...
AbstractSound localization mechanisms are particularly plastic during development, when the monaural...
Neuroimaging studies are important for developing an understanding of the functional organization of...
Objective: To review how the properties of sounds are “coded” in the normal auditory system and to d...